"background": "Evaluating the impact of large-scale infrastructure interventions, such as water treatment systems, requires robust quasi-experimental methods to establish causal inference, a persistent challenge in structural engineering project assessment. ", "purpose and objectives": "This study provides a methodological evaluation of the difference-in-differences (DiD) model for measuring the adoption rates of community-scale water treatment facilities, assessing its applicability and robustness within a longitudinal infrastructure development context. ", "methodology": "A longitudinal panel dataset was constructed from national utility records and field surveys. The primary analysis employed a two-way fixed effects DiD model: Y{it = \ + \ (Treati \ Postt) + \ + \ +, where adoption Y₈ₓ is the outcome for community i in period t. Inference was based on cluster-robust standard errors at the district level. ", "findings": "The DiD estimator identified a statistically significant positive effect, with system adoption increasing by approximately 18 percentage points in intervention communities relative to controls (95% CI: 12 to 24). The parallel trends assumption held pre-intervention, but sensitivity analyses revealed the result was not robust to certain alternative model specifications. ", "conclusion": "The DiD framework is a valuable but context-sensitive tool for evaluating engineering infrastructure adoption, capable of generating credible causal estimates when key identification assumptions are rigorously tested. ", "recommendations": "Future engineering impact evaluations should incorporate pre-intervention parallel trends testing and sensitivity analyses as standard practice. Data collection protocols must be designed to facilitate the construction of suitable control groups from project inception. ", "key words": "difference-in-differences, causal inference, water infrastructure, adoption rates, impact evaluation, quasi-experimental design", "contribution statement": "This paper provides the first formal application and critical assessment of the DiD methodology for evaluating the rollout of decentralised water treatment infrastructure at a national scale, demonstrating its utility and limitations for structural engineers. "
Mwinyi et al. (Mon,) studied this question.